Hot swap fan tray with fan guard

ABSTRACT

A hot swap fan tray with fan guard is disclosed. The present invention includes a frame, at least one fan and at least one fan guard. The frame includes a plurality of first holes. The fan includes a plurality of second holes. The fan guard further includes a plane and at least one protrusive terminal. The protrusive terminal projects from the plane and includes at least one bend. During the protrusive terminal passes through the first hole and the second hole, the bend changes shape and then returns original shape elastically, thereby the bend attaching said fan and said fan guard to said frame.

BACKGROUND OF THE INVENTION

1. Field of the Invention

The present invention relates to a fan tray with fan guard, and moreparticularly to a hot swap fan tray with fan guard.

2. Description of the Prior Art

The so-called fan tray includes several fans mounted in a frame. As somefan has a breakdown, the built-in control circuit starts or acceleratesthe remaining fans to compensate the reduced cooling ability.

As partially shown in FIG. 1, the conventional fan tray 10 includesframe 20, a fan 30, a fan guard 50 and a plurality of screws 60. Amongthese, the frame 20 includes a plurality of first holes 25. The fan 30includes a plurality of second holes 35 corresponding to the first holes25.

Still referring to FIG. 1, the conventional fan guard 50 is made ofmetallic mesh. The conventional fan guard 50 has the extending portions57 extending from the plane 55. Besides, the extending portions 57 arealigned to the first holes 25 and the second holes 35. However, theconventional fan tray 10 suffers from the problems that the fan 30 andfan guard 50 are difficult to assembly and disassembly. Duringassembling, the screws 60 passing through the extending portions 57, thefirst holes 25 and the second holes 35 screw the fan 30 and the fanguard 50 to the frame 20. During disassembling, it is time-consuming toscrew the screws 60 off the frame 20 to separate the fan 30 and the fanguard 50 from the frame 20.

Therefore, there is a need in the art for a hot swap fan tray with fanguard which dose not require any screw attaching the fan 30 and the fanguard 50 to the frame 20.

SUMMARY OF THE INVENTION

Therefore, the main object of the present invention is to provide a hotswap fan tray and fan guard.

A more specific object of the present invention to provide a fan traywhich does not require any screw attaching fan and fan guard to the fantray.

The present fan tray includes a frame, at least one fan and at least onefan guard. Among these, the frame includes a plurality of first holes.The fan includes a plurality of second holes. The fan guard is capableof hot swap. The fan guard further includes a plane and at least oneprotrusive terminal. The protrusive terminal projects from the plane andincludes at least one bend, such as the first bend and the second bend.

The bend is formed by bending the metal wire constituting the plane.Besides, the bend may be bent toward the same or different direction ifthe number of the bend is more than one. For example, the first bend isbent toward the center of the plane and the second bend is bent towardthe direction opposite to the center of the plane. Alternatively, thefirst bend is bent along some tangent line of the plane and the secondbend is bent opposite to the direction of the tangent line. In addition,the first bend and the second bend are continuous or discontinuous toeach other.

During assembling, the protrusive terminal passes through the first holeand the second hole, thereby the elastic bend attaching the fan and thefan guard to the frame. Since the bend is elastic, the first bend andthe second bend can pass through the first hole and the second hole.Then, the first bend and the second bend return to original shape due toelasticity after passing through the first hole and the second hole. Inthis manner, the first bend and the second bend attach the fan and thefan guard to the frame. During disassembling, the first bend and thesecond bend are pulled and compressed so as to disconnect the fan guardfrom the frame.

It is noted that the present fan guard permits of directly attaching tothe fan by means of the protrusive terminal.

BRIEF DESCRIPTION OF THE DRAWINGS

The foregoing aspects and many of the attendant advantages of thisinvention will become more readily appreciated as the same becomesbetter understood by reference to the following detailed description,when taken in conjunction with the accompanying drawings, wherein:

FIG. 1 shows a conventional fan tray;

FIG. 2 shows a part of the fan tray according to the present invention;

FIGS. 3(a)-3(c) show the embodiments of the fan tray according to thepresent invention;

FIG. 4 shows another embodiment of the fan tray according to the presentinvention; and

FIG. 5 also shows another embodiment of the fan tray according to thepresent invention.

DESCRIPTION OF THE PREFERRED EMBODIMENT

The first embodiment

According to the first embodiment of the present invention shown in FIG.2, the hot swap fan tray includes a frame 200, at least one fan 300 andat least one fan guard 500. Among these, the frame 200 includes at leastone opening 220 and a plurality of first holes 250. The fan 300 includesa plurality of second holes 350, such as the second holes 350 formed onthe periphery of the fan 300. Besides, the present invention does notrequire the specific fan. That is, a general fan already in existencemay be used as the present fan 300 to reduce cost.

Referring to FIG. 2 and FIG. 3(a), the fan guard 500 is capable of hotswap. The fan guard 500 further includes a plane 510 and at least oneprotrusive terminal 520. The protrusive terminal 520 projects from theplane 510 and further includes at least one bend, such as the first bend530 a and the second bend 530 b. Due to the bend, the protrusiveterminal 520 can return original shape elastically after compressed.

Refer to FIGS. 3(a)-(c) illustrating the bends according to the severalembodiments of the present invention. The following embodiments differfrom each other in the number of the bend and the bending direction. Thebend 530 is formed by bending the metal wire constituting the plane 510.Besides, the bends 530 (i.e. 530 a and 530 b) may be bent toward thesame or different direction if the number of the bend is more than one.

As the embodiment shown in FIG. 3(a), the protrusive terminal 520 hastwo bends including the first bend 530 a and the second bend 530 b.Among these, the first bend 530 a is bent toward the center of the plane510 and the second bend 530 b is bent toward the direction opposite tothe center of the plane 510.

Alternatively, as the embodiment shown in FIG. 3(b), the protrusiveterminal 520 has four bends including the first bend 530 a, the secondbend 530 b, the third bend 530 c and the fourth bend 530 d. Among these,the first bend 530 a is bent along some tangent line of the plane 510and the second bend 530 b is bent opposite to the direction of thetangent line. Further, the third bend 530 c is bent toward the center ofthe plane 510 and the third bend 530 d is bent toward the directionopposite to the center of the plane 510. In addition, the first bend 530a and the second bend 530 b are continuous, as shown in FIG. 3(a) andFIG. 3(b), or discontinuous to each other as shown in FIG. 3(c).

Refer to FIG. 2 and FIG. 3(a)-FIG. 3(c). During assembling, theprotrusive terminal 520 passes through the first hole 250 and the secondhole 350, the bends elastically deforming and then returning originalshape, thereby the bend attaching the fan 300 and the fan guard 500 tothe frame 200. Besides, the inlet or outlet of the fan 300 is aligned tothe opening 220 of the frame 200. Since the bend is elastic, thecompressed and deformed bends, such as the first bend 530 a and thesecond bend 530 b, can pass through the first hole 250 and the secondhole 350. Then, the first bend 530 a and the second bend 530 b return tooriginal shape due to elasticity after passing through the first hole250 and the second hole 350. In this manner, the first bend 530 a andthe second bend 530 b attach the fan 300 and the fan guard 500 to theframe 200. During disassembling, the first bend 530 a and the secondbend 530 b are pulled and compressed so as to disconnect the fan guard500 from the frame 200.

It is noted that the present fan guard permits of directly attaching tothe fan by means of the protrusive terminal. As shown in FIG. 2 and FIG.3(a), the protrusive terminal 520 passes through the second hole 350 ofthe fan 300 so as to directly attach the fan guard 500 to the fan 300.Since the bend is elastic, the compressed and deformed bends, such asthe first bend 530 a and the second bend 530 b, can pass through thesecond hole 350. Then, the first bend 530 a and the second bend 530 breturn to original shape due to elasticity after passing through thesecond hole 350. In this manner, the first bend 530 a and the secondbend 530 b attach the fan guard 500 to the fan 300. Duringdisassembling, the first bend 530 a and the second bend 530 b are pulledand compressed so as to disconnect the fan guard 500 from the fan 300.

The second embodiment

According to the second embodiment of the present invention shown inFIG. 5, the hot swap fan tray includes a frame 200, at least one fan 300and at least one fan guard 500. Among these, the frame 200 includes atleast one opening 220 and a plurality of first holes 250. The fan 300includes a plurality of second holes 350, such as the second holes 350formed on the periphery of the fan 300. Besides, the present inventiondoes not require the specific fan. That is, a general fan already inexistence may be used as the present fan 300 to reduce cost.

Still referring to FIG. 5, the fan guard 500 is formed by punching ametal sheet and thus has a sheet metal construction. The fan guard 500is capable of hot swap. The fan guard 500 further includes a plane 510and at least one protrusive terminal 520. The protrusive terminal 520projects from the plane 510 and includes at least one bend, such as thefirst bend 530 a and the second bend 530 b. Due to the bend, theprotrusive terminal 520 can return original shape elastically aftercompressed. During assembling, the bend 530 of the protrusive terminal520 passes through the first hole 250 and the second hole 350, the bendselastically deforming and then returning original shape, thereby thebend 530 attaching the fan 300 and the fan guard 500 to the frame 200.Besides, the inlet or outlet of the fan 300 is aligned to the opening220 of the frame 200.

The third embodiment

According to the third embodiment of the present invention shown in FIG.4, the hot swap fan tray includes a frame 200 and at least one fan 300.Among these, the frame 200 includes at least one railing-shaped opening220 and a plurality of protrusions 270. The fan 300 includes a pluralityof holes 350, such as the holes 350 formed on the periphery of the fan300. Besides, the present invention does not require the specific fan.That is, a general fan already in existence may be used as the presentfan 300 to reduce cost.

As shown in FIG. 4, since the railing-shaped opening 220 is an openinghaving a plurality of railings, the railing-shaped opening 220 can serveas a fan guard. Both of the railing-shaped opening 220 and theprotrusions 270 are formed by punching the frame 200. The protrusions270 are arranged around the railing-shaped opening 220 and verticallyproject from the frame 200. Each of the protrusions 270 includes an bend290. Due to the bend 290, the protrusions 270 can return to originalshape elastically after compressed. During assembling, the bend 290 ofthe protrusions 270 passes through the hole 350, thereby the bend 530attaching the fan 300 to the frame 200. Besides, the inlet or outlet ofthe fan 300 is aligned to the opening 220 of the frame 200.

As stated above, the present fan tray and fan guard is hot-swappable.Besides, the present invention does not require any screw attaching thefan and the fan guard to the frame of the fan tray.

As is understood by a person skilled in the art, the foregoing preferredembodiments of the present invention are illustrated of the presentinvention rather than limiting of the present invention. It is intendedto cover various modifications and similar arrangements included withinthe spirit and scope of the appended claims, the scope of which shouldbe accorded the broadest interpretation so as to encompass all suchmodifications and similar structure.

What is claimed is:
 1. A hot swap fan tray, comprising: a frame,including a plurality of first holes; at least one fan, having aplurality of second holes; at least one fan guard, further comprising: afan guard plane; and at least one protrusive terminal, projecting fromsaid fan guard plane, said protrusive terminal including at least oneelastic bend; wherein said protrusive terminal passes through said firsthole and said second hole, and said bend returns to original shape afterpassing through said first hole and said second hole, thereby said bendattaching said fan and said fan guard to said frame.
 2. The hot swap fantray according to claim 1, wherein each of said bends is formed bybending said protrusive terminals toward different direction.
 3. The hotswap fan tray according to claim 1, wherein each of said bends is formedby bending each of said protrusive terminals toward identical direction.4. The hot swap fan tray according to claim 1, wherein said bendcomprises a first bend and a second bend.
 5. The hot swap fan trayaccording to claim 4, wherein said first bend and said second bend arecontinuous to each other.
 6. The hot swap fan tray according to claim 4,wherein said first bend and second bend are discontinuous to each other.7. A hot swap fan tray, comprising: a frame, including a plurality offirst holes; at least one fan, having a plurality of second holes; atleast one fan guard, formed by punching a metal sheet, said fan guardfurther comprising: a fan guard plane; and at least one protrusiveterminal, projecting from said fan guard plane, said protrusive terminalincluding at least one elastic bend; wherein said protrusive terminalpasses through said first hole and said second hole, and said bendreturns to original shape after passing through said first hole and saidsecond hole, thereby said bend attaching said fan and said fan guard tosaid frame.
 8. The hot swap fan tray according to claim 7, wherein eachof said bends is formed by bending said protrusive terminals towarddifferent direction.
 9. The hot swap fan tray according to claim 7,wherein each of said bends is formed by bending said protrusiveterminals toward identical direction.
 10. The hot swap fan trayaccording to claim 7, wherein said bend comprises a first bend and asecond bend.
 11. The hot swap fan tray according to claim 10, whereinsaid first bend and said second bend are continuous to each other. 12.The hot swap fan tray according to claim 10, wherein said first bend andsaid second bend are discontinuous to each other.
 13. A hot swap fanguard, comprising: a fan guard plane; and at least one protrusiveterminal, projecting from said fan guard plane, said protrusiveelastically bent terminal, including at least one elastic bend, each ofsaid at least one bend protruding in different directions.
 14. The hotswap fan guard according to claim 13, further coupled to a hole of a fanby means of said bend.
 15. The hot swap fan tray according to claim 14,wherein said bend returns to original shape after passing through saidhole.
 16. The hot swap fan tray according to claim 13, wherein each ofsaid bends is formed by bending said protrusive terminals towardidentical direction.
 17. The hot swap fan tray according to claim 13,further comprises a plurality of bends.
 18. The hot swap fan trayaccording to claim 13, wherein said first bend and said second bend arecontinuous or discontinuous to each other.